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EECS 373 Design of Microprocessor-Based Systems Student Presentations

EECS 373 Design of Microprocessor-Based Systems Student Presentations Tianhua Zheng and Jason Shintani Motor control November 27 th , 2012. Announcements. Today is a good day! Motors are awesome!. Outline. Minute quiz Announcements Special purpose motors (servos, steppers, actuators)

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EECS 373 Design of Microprocessor-Based Systems Student Presentations

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  1. EECS 373 Design of Microprocessor-Based Systems Student Presentations TianhuaZheng and Jason Shintani Motor control November 27th, 2012

  2. Announcements • Today is a good day! • Motors are awesome!

  3. Outline • Minute quiz • Announcements • Special purpose motors (servos, steppers, actuators) • H-bridge • CEMF

  4. Servo Motors • A motor that has an on-board electric circuit for controlling the direction of rotation, as well as the position, of the output shaft. • Typical rotation range: 90 degrees or 180 degrees • Typical price range: $10 to 10’s of $1,000.

  5. Servo Motor Control • Closed loop control • Measure the exact position of the motor head • Fix the gaps from the desired position by controlling the motor • Control signal: PWM • Operate between 4.8V and 6V • Generally @ 50Hz

  6. Example PWM for servo The position of the motor is not determined by duty cycle but the high time. Typically 1.5ms high corresponds to the neutral position.

  7. Usage of Servo Motors • Used in a wide variety of application • Robotic arms • Toy-cars, air-planes and helicopters • Industrial machinery • Easy to control • Only need PWM signal • Low energy consumption • Works in closed loop • Small Size • As small as several inches squared

  8. Torque vs. cost

  9. Stepper Motor • A brushless DC electric motor that divides a full rotation into a number of equal steps • Offers precise rotation control and relatively high rotational speed • Generally can turn in 0.9 to 1.8 degree in each direction • Unipolar and Bipolar, or Hybrid • Difference in the way the electromagnets are connected • Different control methods

  10. Stepper Motor Control • “Single-Step” controlling method • “Double-Step” controlling method • “Half-Step” stepping method

  11. Stepper Motor Control • Need controller to generate waveform to drive the stepper motor Discrete Transitions

  12. Usage of Stepper Motor • Used in a wide variety of application in industry • Computer Peripherals • Business Machines • And also in everyday life • BBQ grill • Stage intelligent light systems • Power windows and power seats • High positioning accuracy, large torque, reliability.

  13. Torque vs. cost

  14. Outline • Minute quiz • Announcements • Special purpose motors (servos, steppers, actuators) • H-bridge • CEMF

  15. H-bridge • A set of four switches, mechanical or solid-state, with series pairs in parallel. • Used to provide direction control for DC motors. • Often found in IC packages. • DC brushed motors

  16. H-bridge speed control • Control signal: PWM • Unlike servos, H-bridges use PWM to regulate power supplied to the motor. • This can be correlated to speed if the mechanical load is know or thru closed-loop feedback from a quadrature encoder. • 50,000Hz – 60,000Hz • PWM generation • The PWM signal is generated by switching one of the two switches that have current flowing. • For example, if the motor from the previous slide was running right, 1001, PWM’ing S1 would limit the current to the motor.

  17. 1001 - Forward

  18. 0110 - Reverse

  19. 1100, 0011, 1111 – Shoot thru

  20. H-bridge components and application • A motor controller that supports power (speed) control is made of four MOSFET’s or BJT’s. • Typically, N-Channel MOSFET’s are chosen because of their low source to drain resistance. • Solid-state switches are chosen because they allow for higher switching frequencies and wear less on each individual throw (no sparks). • Mechanical switches are much cheaper but do not allow for effective power (speed) control.

  21. H-bridge application

  22. Non H-bridge applications • Servos • Stepper motors • Non-reversible configurations • AC motors • DC brushless motors

  23. Outline • Minute quiz • Announcements • Special purpose motors (servos, steppers, actuators) • H-bridge • CEMF

  24. Counter-electromotive force (CEMF) • When dealing with high-current DC motors CEMF must be considered. • CEMF is a product of Faraday’s Law of Induction and Lenz’s Law. • The CEMF is created by the spinning armatures. • The CEMF is how motors are also generators. • Why is this important? • Because large motors will generate large CEMF induced currents. • If the H-bridge goes into a breaking state care must be taken to properly divert and dissipate the current. • CEMF can also be used to sense speed and load.

  25. 0101 - Break

  26. 0110 1100 - Possible break circuit

  27. Thank You!

  28. Servo Motor VS. Stepper Motor

  29. DC brushless motor

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